TT Electronics/IRC

GS8B032490FFT

GS8B032490FFT Description

The GS8B032490FFT from TT Electronics/IRC is a high-performance ceramic resistor network designed for precision applications. Housed in a 16-pin narrow SOIC package, this bussed (BUS) configuration device integrates 15 resistors with a 249Ω value and ±1% absolute tolerance. Its thin-film technology ensures stable performance with a low ±25ppm/°C temperature coefficient, making it ideal for environments with operating temperatures ranging from 70°C to 125°C. The 0.05W (1/20) power rating per resistor and 100V maximum voltage rating provide reliable operation in compact, surface-mount designs.

GS8B032490FFT Features

• Ceramic case for enhanced thermal stability and durability.
• SOIC package (9.91mm × 5.99mm × 1.45mm) with gull-wing terminals for easy PCB mounting.
• Bussed network simplifies circuit design by connecting multiple resistors in a single package.
• ±1% tolerance and ±25ppm/°C TCR ensure precision in signal conditioning and voltage division.
• 0.8W total power dissipation across all resistors, suitable for moderate-power applications.
• Non-automotive (PPAP: No) and non-RoHS compliant, restricting use in certain regulated markets.

GS8B032490FFT Applications

This resistor network excels in:

• Analog signal processing (e.g., DAC/ADC reference circuits).
• Voltage division networks in industrial control systems.
• Impedance matching for RF and communication modules.
• Medical instrumentation requiring stable, low-drift resistance.
• Test and measurement equipment where precision and repeatability are critical.

Conclusion of GS8B032490FFT

The GS8B032490FFT stands out for its ceramic construction, tight tolerances, and bussed architecture, offering a compact, reliable solution for precision electronics. While not suited for automotive or RoHS-regulated applications, its thin-film stability and SOIC footprint make it a preferred choice for industrial, medical, and test equipment designs demanding accuracy and thermal resilience. Engineers will appreciate its simplified integration and consistent performance in space-constrained, high-reliability systems.